Nexwafe technology review. Nexwafe is developing a next-generation PV silicon technology called the EpiWafer process, growing standalone silicon wafers onto mono-crystalline seed wafers, with no need to slice ingots and…
A new solar cell is vying to re-shape the PV industry, with 2-5% efficiency gains and c25-35% lower silicon use than today’s PERC cells. This 13-page note reviews TOPCon cells,…
‘Levelized cost’ can be a useful concept. But it can also be mis-used, as though one ‘energy source to rule them all’ was on the cusp of pushing out all…
This data-file quantifies solar trackers’ efficiency improvements. Depending on location, 40-90% of new utility-scale solar plants are being fitted with ‘trackers’ in the early-2020s; constantly re-positioning panels to face the…
The solar energy reaching a given point on Earth’s surface varies by +/- 6% each year. These annual fluctuations are 96% correlated over tens of miles. And no battery can…
Electrification is the largest, most overlooked, most misunderstood part of the energy transition. Hence this 10-page note aims to explain the upside, simply and clearly. Electricity rises from 40% of…
Reaching net zero requires building wind, solar, grid infrastructure, energy storage, electric vehicles and capturing CO2. Energy is needed to build all of these things. The total energy costs of…
Silicon carbide power electronics will jolt the energy transition forwards, displacing silicon, and improving the efficiency of most new energies by 1-10 pp. Hence we wonder if this disruptor will…
Over the past decade, costs have deflated by 85% for lithium ion batteries, 75% for solar and 25% for onshore wind. Now new energies are entering a new era. Future…
MOSFETs are fast-acting digital switches, used to transform electricity, across new energies and digital devices. MOSFET power losses are built up from first principles in this data-file, averaging 2% per…